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cachekvstore.go
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cachekvstore.go
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package store
import (
"bytes"
"io"
"sort"
"sync"
cmn "github.com/tendermint/tendermint/libs/common"
)
// If value is nil but deleted is false, it means the parent doesn't have the
// key. (No need to delete upon Write())
type cValue struct {
value []byte
deleted bool
dirty bool
}
// cacheKVStore wraps an in-memory cache around an underlying KVStore.
type cacheKVStore struct {
mtx sync.Mutex
cache map[string]cValue
parent KVStore
}
var _ CacheKVStore = (*cacheKVStore)(nil)
// nolint
func NewCacheKVStore(parent KVStore) *cacheKVStore {
return &cacheKVStore{
cache: make(map[string]cValue),
parent: parent,
}
}
// Implements Store.
func (ci *cacheKVStore) GetStoreType() StoreType {
return ci.parent.GetStoreType()
}
// Implements KVStore.
func (ci *cacheKVStore) Get(key []byte) (value []byte) {
ci.mtx.Lock()
defer ci.mtx.Unlock()
ci.assertValidKey(key)
cacheValue, ok := ci.cache[string(key)]
if !ok {
value = ci.parent.Get(key)
ci.setCacheValue(key, value, false, false)
} else {
value = cacheValue.value
}
return value
}
// Implements KVStore.
func (ci *cacheKVStore) Set(key []byte, value []byte) {
ci.mtx.Lock()
defer ci.mtx.Unlock()
ci.assertValidKey(key)
ci.setCacheValue(key, value, false, true)
}
// Implements KVStore.
func (ci *cacheKVStore) Has(key []byte) bool {
value := ci.Get(key)
return value != nil
}
// Implements KVStore.
func (ci *cacheKVStore) Delete(key []byte) {
ci.mtx.Lock()
defer ci.mtx.Unlock()
ci.assertValidKey(key)
ci.setCacheValue(key, nil, true, true)
}
// Implements KVStore
func (ci *cacheKVStore) Prefix(prefix []byte) KVStore {
return prefixStore{ci, prefix}
}
// Implements KVStore
func (ci *cacheKVStore) Gas(meter GasMeter, config GasConfig) KVStore {
return NewGasKVStore(meter, config, ci)
}
// Implements CacheKVStore.
func (ci *cacheKVStore) Write() {
ci.mtx.Lock()
defer ci.mtx.Unlock()
// We need a copy of all of the keys.
// Not the best, but probably not a bottleneck depending.
keys := make([]string, 0, len(ci.cache))
for key, dbValue := range ci.cache {
if dbValue.dirty {
keys = append(keys, key)
}
}
sort.Strings(keys)
// TODO: Consider allowing usage of Batch, which would allow the write to
// at least happen atomically.
for _, key := range keys {
cacheValue := ci.cache[key]
if cacheValue.deleted {
ci.parent.Delete([]byte(key))
} else if cacheValue.value == nil {
// Skip, it already doesn't exist in parent.
} else {
ci.parent.Set([]byte(key), cacheValue.value)
}
}
// Clear the cache
ci.cache = make(map[string]cValue)
}
//----------------------------------------
// To cache-wrap this cacheKVStore further.
// Implements CacheWrapper.
func (ci *cacheKVStore) CacheWrap() CacheWrap {
return NewCacheKVStore(ci)
}
// CacheWrapWithTrace implements the CacheWrapper interface.
func (ci *cacheKVStore) CacheWrapWithTrace(w io.Writer, tc TraceContext) CacheWrap {
return NewCacheKVStore(NewTraceKVStore(ci, w, tc))
}
//----------------------------------------
// Iteration
// Implements KVStore.
func (ci *cacheKVStore) Iterator(start, end []byte) Iterator {
return ci.iterator(start, end, true)
}
// Implements KVStore.
func (ci *cacheKVStore) ReverseIterator(start, end []byte) Iterator {
return ci.iterator(start, end, false)
}
func (ci *cacheKVStore) iterator(start, end []byte, ascending bool) Iterator {
var parent, cache Iterator
if ascending {
parent = ci.parent.Iterator(start, end)
} else {
parent = ci.parent.ReverseIterator(start, end)
}
items := ci.dirtyItems(ascending)
cache = newMemIterator(start, end, items)
return newCacheMergeIterator(parent, cache, ascending)
}
// Constructs a slice of dirty items, to use w/ memIterator.
func (ci *cacheKVStore) dirtyItems(ascending bool) []cmn.KVPair {
items := make([]cmn.KVPair, 0, len(ci.cache))
for key, cacheValue := range ci.cache {
if !cacheValue.dirty {
continue
}
items = append(items, cmn.KVPair{Key: []byte(key), Value: cacheValue.value})
}
sort.Slice(items, func(i, j int) bool {
if ascending {
return bytes.Compare(items[i].Key, items[j].Key) < 0
}
return bytes.Compare(items[i].Key, items[j].Key) > 0
})
return items
}
//----------------------------------------
// etc
func (ci *cacheKVStore) assertValidKey(key []byte) {
if key == nil {
panic("key is nil")
}
}
// Only entrypoint to mutate ci.cache.
func (ci *cacheKVStore) setCacheValue(key, value []byte, deleted bool, dirty bool) {
ci.cache[string(key)] = cValue{
value: value,
deleted: deleted,
dirty: dirty,
}
}